Light Steel Thin -Walled Structures Composite Beam of Cellular Concrete

AL-Hasnawi Yasser Sami Ghareb; A.V. Klyuev; Omar Ismael Alhashimi

doi:10.4028/www.scientific.net/MSF.974.596

Paper Titles

Improving the Methodology for Calculating the Bearing Capacity of Eccentrically Compressed Reinforced Concrete Elements Based on the Use of the Refined Curvilinear Deformation Diagrams of Concrete and Reinforcement
p.570

Investigation of the Effect of Reinforcing Diaphragms Ribbed Panels on their Carrying Capacity
p.577

Cascade Strengthening of Bent Elements by Polymers with Adhesive Joints
p.583

Strength and Deformation of Bendable Plastic-Concrete-Tubal Structures
p.589

Light Steel Thin -Walled Structures Composite Beam of Cellular Concrete
p.596

Analysis of Prestressed Bent Precast-Cast-In-Situ Structures in Vlasov-Mileykovsky Method with Physical Non-Linearity of Material
p.601

Comparative Analysis of Plasticity Theory Algorithms in Finite-Element Calculations of the Rotation Shell
p.608

Probable Calculation of Reinforced Concrete Elements by Deformation
p.614

Implementation of Incremental Yield Condition for Continual Problems with Singularity
p.620

HomeMaterials Science ForumMaterials Science Forum Vol. 974Light Steel Thin -Walled Structures Composite Beam...

Light Steel Thin -Walled Structures Composite Beam of Cellular Concrete

Abstract:

The cost-efficient field design is very important in the civil engineering. Therefore, the cold-formed steel structures (CFS) are preferred for construction. A Sophisticated CFS structure which uses a Cellular Concrete is implemented in this paper. The utilization Cold-Formed Steel (CFS) structures have become increasingly popular in different fields of building technology. The reasons behind the growing popularity of these products include their fabrication ease, high strength/weight ratio and suitability for a wide range of applications. These advantages can result in more economic designs, as compared with hot-rolled steel, especially in short-span applications. In this project work an attempt to use a Cold formed steel section as replacement to conventional steel reinforcement bar has been made.

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Periodical:

Materials Science Forum (Volume 974)

Pages:

596-600

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.974.596

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Online since:

December 2019

Authors:

AL-Hasnawi Yasser Sami Ghareb*, A.V. Klyuev, Omar Ismael Alhashimi

Keywords:

Cellular Concrete, Cold Formed Steel (CFS), Composite Beam

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